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Solid-State Lithium Battery

a lithium battery and solid-state technology, applied in the field of solid-state lithium batteries, can solve the problems of limiting the life-time of batteries, fracturing of films, heat transfer loss, etc., and achieve the effect of improving power over conventional materials and low form factor

Inactive Publication Date: 2015-01-29
SANDIA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The patent text describes combining two types of processing to create a new type of lithium-ion electrolyte. This allows for the creation of a non-hygroscopic electrolyte that is stable in lithium and has high room temperature conductivity. The use of flexible metal foils with fast-ion conductors in electrochemical storage devices results in low form factors and improved power. Overall, this patent offers a commercial way to create advanced and efficient lithium-ion electrolytes.

Problems solved by technology

This potential efficiency is considerably greater than the conversion of thermal energy to mechanical energy as used in internal combustion engines, which always results in heat transfer losses.
Moreover, the additional disadvantages of contaminants emitted into the atmosphere as byproducts of incomplete combustion and the dwindling availability of fuel supplies have intensified research into batteries as an alternative source of energy.
This high mobility of ions other than lithium may lead more readily to the formation of solid electrolyte interfacial (SEI) layers, which may cause deterioration and limit the life-time of the batteries.
One problem encountered in the use of solid-state thin film batteries is the fracturing of the films due to stresses caused by expansion and shrinkage during the charge-discharge cycles using standard materials in the thin film.
In spite of these high reported conductivity values, many of these compositions suffer from issues that prevent their use in lithium-ion cells.
While successful in achieving the appropriate phase and high ionic conductivities, the use of these insulating, refractory, and expensive substrates limits commercial viability and the potential range of applications.
Additionally, the necessary high-temperatures and oxidizing atmospheres used during the processing steps to crystallize La1 / 3-xLixTaO3 are generally incompatible with standard solid-state cell embodiments, which utilize lithium metal anodes, copper current collectors, and nano-crystalline cathodes.
Thus, this substrate material limits the allowable thermal budget and precludes the use of most crystalline oxide electrolytes.

Method used

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Examples

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Embodiment Construction

[0027]As shown in FIG. 1, a solid-state lithium microbattery can comprise a thin film of a first nonaqueous material, such as copper or nickel, that functions as an anode current collector, upon which is deposited optionally a thin-film anode (not shown) comprising a nonaqueous material such as lithium or lithium titanate, upon which is a nonaqueous solid electrolyte thin film layer that comprises a lithium-rare earth metal-containing compound. A solid nonaqueous cathode thin film is layered on top of the electrolyte thin film layer, followed by a nonaqueous thin film cathode current collector, such as an aluminum layer. Optionally, a separator membrane (not shown) can be between layers, such as between the nonaqueous electrolyte thin film layer and the solid cathode thin film layer.

[0028]The anode current collector can comprise a thin film of copper or nickel that is in one embodiment approximately 0.2 to approximately 5 microns in thickness or in another embodiment a tape or foil ...

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Abstract

The present invention is directed to a higher power, thin film lithium-ion electrolyte on a metallic substrate, enabling mass-produced solid-state lithium batteries. High-temperature thermodynamic equilibrium processing enables co-firing of oxides and base metals, providing a means to integrate the crystalline, lithium-stable, fast lithium-ion conductor lanthanum lithium tantalate (La1 / 3-xLi3xTaO3) directly with a thin metal foil current collector appropriate for a lithium-free solid-state battery.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application is a divisional of co-pending U.S. application Ser. No. 13 / 478,766, filed May 23, 2012, which is a continuation-in-part of U.S. application Ser. No. 12 / 690,189, filed Jan. 20, 2010, and which claims the benefit of U.S. Provisional Application No. 61 / 521,118, filed Aug. 8, 2011, all of which are incorporated herein by reference.STATEMENT OF GOVERNMENT INTEREST[0002]This invention was made with Government support under contract no. DE-AC04-94AL85000 awarded by the U. S. Department of Energy to Sandia Corporation. The Government has certain rights in the invention.FIELD OF THE INVENTION[0003]The present invention relates to solid-state batteries and, in particular, to a solid-state lithium battery and a method for thin-film lithium-ion electrolyte fabrication for use in such solid-state lithium batteries.BACKGROUND OF THE INVENTION[0004]A battery is an electrochemical device that converts the energy released in a chemical re...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): H01M10/0562H01M10/052H01M50/403
CPCH01M10/0562H01M2300/0071H01M10/052H01M10/0436H01M10/058H01M6/40C01G35/006C01P2002/72C01P2004/03C01P2004/04C01P2006/40Y02E60/10H01M50/403
Inventor IHLEFELD, JONCLEM, PAUL G.EDNEY, CYNTHIAINGERSOLL, DAVIDNAGASUBRAMANIAN, GANESANFENTON, KYLE ROSS
Owner SANDIA
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